Verfügbarkeit: Microfluidic biochip for studying electrotaxis of cells under direct current electric fields

Microfluidic biochip for studying electrotaxis of cells under direct current electric fields:

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Bibliographische Detailangaben
1. Verfasser:	de Sousa Gonçalves Rio, Marisa (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Dresden TUDpress 2019
Schriftenreihe:	Dresdner Beiträge zur Sensorik 73
Schlagworte:	Galvanotaxis Mikrofluidik Biochip Paperback / softback biochip electric fields microfluidic 1684: Hardcover, Softcover / Technik/Elektronik, Elektrotechnik, Nachrichtentechnik Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 126 Seiten Illustrationen
ISBN:	9783959081672 3959081677

Internformat

MARC


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Datensatz im Suchindex

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adam_text	TABLE OF CONTENTS ABSTRACT IV ZUSAMMENFASSUNG V LIST OF ABBREVIATIONS X LIST OF SYMBOLS XII 1 INTRODUCTION 1 1.1 MOTIVATION .................................................................................................... 1 1.2 STATE OF THE ART ........................................................................................... 2 1.3 SCOPE AND REQUIREMENTS ............................................................................ 9 1.4 OVERVIEW OF THE DISSERTATION ...................................................................... 10 2 PROCESSES AND FUNDAMENTALS 13 2.1 BIOLOGICAL BACKGROUND ............................................................................... 14 2.1.1 BIOELECTRICITY .................................................................................. 14 2.1.2 DIRECT CURRENT VOLTAGE SOURCES IN BIOLOGICAL ORGANISMS ................. 16 2.1.3 EFFECTS OF APPLIED DC EFS AT CELLULAR LEVEL ................................... 22 2.2 ELECTROCHEMISTRY ........................................................................................ 25 2.2.1 TRANSITION FROM ELECTRONIC TO IONIC CONDUCTION ........................... 25 2.2.2 DIFFUSION, MIGRATION AND CONVECTION IN MICROFLUIDIC SYSTEMS ... 27 2.2.3 ELECTROLYSIS IN AQUEOUS NACL SOLUTIONS ........................................ 29 2.3 APPLICATION OF STATIONARY ELECTRIC FIELDS ..................................................... 31 2.4 JOULE HEATING INDUCED BY ELECTRIC FIELD APPLICATION ................................... 32 3 MATERIALS AND METHODS 33 3.1 PHOTORESIST SU-8 ........................................................................................ 34 3.2 POLY ( DIMETHY LSYLOXANE) ............................................................................... 35 3.3 IMAGING TECHNIQUES ..................................................................................... 36 3.3.1 OPTICAL MICROSCOPY ......................................................................... 36 3.3.2 FLUORESCENCE MICROSCOPY ................................................................ 37 3.3.3 PHASE CONTRAST MICROSCOPY .......................................................... 39 3.4 CELL CULTURE AND PREPARATION ...................................................................... 39 3.5 CELL STAINING .................................................................................................. 40 3.5.1 LIFE-DEAD ASSAY ............................................................................... 40 3.5.2 IMMUNOFLUORESCENCE STAINING .......................................................... 41 3.6 CELL TRACKING AND EVALUATION OF CELL MIGRATION ........................................... 42 3.7 WOUND HEALING ASSAY .................................................................................. 42 3.8 MEASUREMENT OF PH WITH FLUORESCENT DYES ................................................. 43 4 FABRICATION PRINCIPLES AND DEVICE ASSEMBLY 45 4.1 MICROFLUIDIC SYSTEM ..................................................................................... 46 4.1.1 SILICON MASTER .................................................................................. 46 4.1.2 SOFT LITHOGRAPHY ............................................................................... 47 4.1.3 MICCELL MOLDING STATION ................................................................ 48 4.2 SU-8 FREE-STANDING MEMBRANE ................................................................... 50 4.3 SURFACE MODIFICATION .................................................................................. 51 4.3.1 SILANIZATION BY APTES-TREATMENT ................................................. 52 4.3.2 SILANIZATION BY VAPOR-PHASE DEPOSITION ........................................ 54 4.3.3 ALTERNATIVE METHODS ...................................................................... 55 4.4 FABRICATION OF THE AG/AGCL ELECTRODES .................................................... 55 4.5 DEVICE ASSEMBLY ........................................................................................... 59 4.5.1 SET-UP AND ASSEMBLY CONCEPT .......................................................... 59 4.5.2 ALIGNMENT OF BIOCHIP COMPONENTS ................................................. 60 4.5.3 ELECTROLYTE INTO THE MICROFLUIDIC CHANNELS ..................................... 61 4.6 CONCLUSIONS ................................................................................................. 62 5 CHARACTERIZATION OF THE FUNCTIONALIZED SURFACES 65 5.1 CONTACT ANGLE MEASUREMENTS ...................................................................... 66 5.1.1 BASICS .............................................................................................. 66 5.1.2 EXPERIMENTAL PROCEDURE ................................................................ 68 5.1.3 RESULTS AND DISCUSSION ................................................................... 69 5.2 X-RAY PHOTOELECTRON SPECTROSCOPY ............................................................. 70 5.2.1 EXPERIMENTAL PROCEDURE ................................................................ 71 5.2.2 RESULTS AND DISCUSSION ................................................................... 71 VII 5.3 ATOMIC FORCE MICROSCOPY ............................................................................ 72 5.3.1 BASICS .............................................................................................. 72 5.3.2 EXPERIMENTAL PROCEDURE ................................................................ 73 5.3.3 RESULTS AND DISCUSSION ................................................................... 74 5.4 CELL BIOCOMPATIBILITY .................................................................................. 76 5.4.1 BASICS .............................................................................................. 76 5.4.2 EXPERIMENTAL PROCEDURE ................................................................ 76 5.4.3 RESULTS AND DISCUSSION ................................................................... 77 5.5 CONCLUSIONS ................................................................................................. 78 6 DEVICE CHARACTERIZATION 81 6.1 JOULE HEATING DUE TO APPLIED ELECTRIC FIELD ................................................ 82 6.2 NUMERICAL SIMULATION OF ELECTRIC FIELD STRENGTH DISTRIBUTIONS .................. 84 6.2.1 MODELING THE MICROFLUIDIC SYSTEM ................................................ 84 6.2.2 ELECTRIC FIELD SIMULATION ................................................................ 84 6.3 PH ESTIMATION FOLLOWING A LONG TERM EXPERIMENT .................................... 87 6.4 SUITABILITY FOR MULTIPLE USE ......................................................................... 89 6.5 CONCLUSIONS ................................................................................................. 91 7 CELL EXPERIMENTS 93 7.1 ELECTROTAXIS EXPERIMENTS ............................................................................ 94 7.2 CELL VIABILITY ................................................................................................. 95 7.3 IMMUNOFLUORESCENCE ..................................................................................... 96 7.4 WOUND HEALING ASSAY .................................................................................. 98 7.5 CONCLUSIONS .................................................................................................... 100 8 CONCLUSIONS AND OUTLOOK 103 8.1 CONCLUSIONS .................................................................................................... 103 8.2 OUTLOOK .......................................................................................................... 105 APPENDIX A CURRICULUM VITAE 107 APPENDIX B LIST OF RELEVANT PUBLICATIONS 109 B.L JOURNAL ARTICLES ............................................................................................. 109 B.2 CONFERENCE CONTRIBUTIONS .............................................................................. 109 BIBLIOGRAPHY 111 VIII
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author	de Sousa Gonçalves Rio, Marisa
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ctrlnum	(OCoLC)1190922638 (DE-599)DNB1188963880
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik Mess-/Steuerungs-/Regelungs-/Automatisierungstechnik / Mechatronik
format	Book
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spelling	de Sousa Gonçalves Rio, Marisa Verfasser aut Microfluidic biochip for studying electrotaxis of cells under direct current electric fields Marisa de Sousa Gonçalves Rio 201906 Dresden TUDpress 2019 XII, 126 Seiten Illustrationen txt rdacontent n rdamedia nc rdacarrier Dresdner Beiträge zur Sensorik 73 Galvanotaxis (DE-588)4155914-9 gnd rswk-swf Mikrofluidik (DE-588)4803438-1 gnd rswk-swf Biochip (DE-588)4270225-2 gnd rswk-swf Paperback / softback biochip electric fields microfluidic 1684: Hardcover, Softcover / Technik/Elektronik, Elektrotechnik, Nachrichtentechnik (DE-588)4113937-9 Hochschulschrift gnd-content Galvanotaxis (DE-588)4155914-9 s Biochip (DE-588)4270225-2 s Mikrofluidik (DE-588)4803438-1 s DE-604 Dresdner Beiträge zur Sensorik 73 (DE-604)BV011109099 73 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=031697213&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	de Sousa Gonçalves Rio, Marisa Microfluidic biochip for studying electrotaxis of cells under direct current electric fields Dresdner Beiträge zur Sensorik Galvanotaxis (DE-588)4155914-9 gnd Mikrofluidik (DE-588)4803438-1 gnd Biochip (DE-588)4270225-2 gnd
subject_GND	(DE-588)4155914-9 (DE-588)4803438-1 (DE-588)4270225-2 (DE-588)4113937-9
title	Microfluidic biochip for studying electrotaxis of cells under direct current electric fields
title_auth	Microfluidic biochip for studying electrotaxis of cells under direct current electric fields
title_exact_search	Microfluidic biochip for studying electrotaxis of cells under direct current electric fields
title_full	Microfluidic biochip for studying electrotaxis of cells under direct current electric fields Marisa de Sousa Gonçalves Rio
title_fullStr	Microfluidic biochip for studying electrotaxis of cells under direct current electric fields Marisa de Sousa Gonçalves Rio
title_full_unstemmed	Microfluidic biochip for studying electrotaxis of cells under direct current electric fields Marisa de Sousa Gonçalves Rio
title_short	Microfluidic biochip for studying electrotaxis of cells under direct current electric fields
title_sort	microfluidic biochip for studying electrotaxis of cells under direct current electric fields
topic	Galvanotaxis (DE-588)4155914-9 gnd Mikrofluidik (DE-588)4803438-1 gnd Biochip (DE-588)4270225-2 gnd
topic_facet	Galvanotaxis Mikrofluidik Biochip Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=031697213&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV011109099
work_keys_str_mv	AT desousagoncalvesriomarisa microfluidicbiochipforstudyingelectrotaxisofcellsunderdirectcurrentelectricfields

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